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    • 1. 发明申请
    • Cantilever beam MEMS variable optical attenuator
    • 悬臂梁MEMS可变光衰减器
    • US20060127029A1
    • 2006-06-15
    • US11010769
    • 2004-12-13
    • Pinyen LinYao WangJun MaXueyuan LiuPeter GulvinKristine GermanJoel Kubby
    • Pinyen LinYao WangJun MaXueyuan LiuPeter GulvinKristine GermanJoel Kubby
    • G02B6/00
    • G02B6/3508G02B6/266G02B6/3566G02B6/357G02B6/358G02B6/3594G02B6/3596
    • An improved cantilever beam optical switch design which provides the function of a variable optical attenuator (VOA). A small degree of intentional misalignment of the waveguide will create different levels of optical attenuation. By finely controlling the misalignment of a selected switched position, a single device may be realized that will provide the functions of both switching and attenuating or just attenuation alone. The optical MEMS device utilizes a latching mechanism in association with a thermal drive actuator for aligning a cantilever beam platform. The integration of the switching function and the VOA function reduce the optical loss which is otherwise unavoidable when the inevitable alterative of a separate switch and a separate VOA must necessarily be employed. The resultant improved device can also be applied for correcting the difference in optical intensity created by the manufacturing tolerances inherent in the fabrication of array waveguide gratings.
    • 改进的悬臂光束开关设计,提供可变光衰减器(VOA)的功能。 波导的有意的不对准会导致不同程度的光衰减。 通过精细地控制所选择的切换位置的未对准,可以实现单个设备,其将提供单独切换和衰减或仅仅衰减的功能。 光学MEMS器件利用与用于对准悬臂梁平台的热驱动致动器相关联的闩锁机构。 开关功能和VOA功能的集成减少了当必须采用单独的开关和单独的VOA的不可避免的替代时否则不可避免的光损耗。 所得到的改进的器件还可以用于校正由阵列波导光栅的制造中固有的制造公差产生的光强差。
    • 4. 发明申请
    • Thermal actuator and an optical waveguide switch including the same
    • 热致动器和包括其的光波导开关
    • US20050031288A1
    • 2005-02-10
    • US10634941
    • 2003-08-05
    • Joel KubbyJun MaKristine GermanPeter GulvinPinyen Lin
    • Joel KubbyJun MaKristine GermanPeter GulvinPinyen Lin
    • B81B3/00G02B6/35G02B6/36
    • G02B6/3576B81B3/0018G02B6/3566G02B6/3584
    • A thermal actuator comprises a plurality of substantially straight and parallel beams arranged to form a beam array. The midpoint of each beam is attached or coupled to an orthogonal coupling beam. Each array beam has a beam heating parameter with a corresponding beam heating parameter value. The beam heating parameter values vary across the beam array based on a predetermined pattern. As the beams are heated by an included heating means, the distribution of beam temperatures in the beam array becomes asymmetric, thus causing the beam array to buckle. The buckling of the beams in the beam array, in turn, causes the attached coupling beam to move in a predetermined direction. The coupling beam motion, in turn, operates an included optical waveguide switch. The beams in the beam array are heated by any of Joule heating, eddy current heating, conduction heating, convection heating and radiation heating.
    • 热致动器包括布置成形成束阵列的多个基本上直的和平行的光束。 每个光束的中点附加或耦合到正交耦合光束。 每个阵列光束具有具有对应的光束加热参数值的光束加热参数。 光束加热参数值基于预定图案在波束阵列上变化。 当束被加热装置加热时,光束阵列中光束温度的分布变得不对称,从而使光束阵列发生弯曲。 光束阵列中的光束的弯曲又使连接的光束沿预定的方向移动。 耦合光束运动反过来操作包括的光波导开关。 光束阵列中的光束通过焦耳加热,涡流加热,传导加热,对流加热和辐射加热中的任何一种加热。
    • 10. 发明申请
    • Electrostatic actuator with segmented electrode
    • 带分段电极的静电执行器
    • US20050285902A1
    • 2005-12-29
    • US10873125
    • 2004-06-23
    • Peter GulvinJoel Kubby
    • Peter GulvinJoel Kubby
    • B41J2/06B41J2/14
    • B41J2/14314
    • An electrostatic actuator includes a segmented flexible membrane associated with individually addressable electrodes, one for each membrane segment. The electrodes are provided beneath a corresponding one of the membrane segments to define a plurality of actuator chambers between each of the electrodes and the corresponding membrane segment. Control electronics independently provide a bias voltage to select ones or all of the electrodes to generate an electrostatic field between any bias electrode and the corresponding membrane segment to attract the corresponding membrane segment toward the respective electrode. Upon elimination of the bias voltage, the corresponding membrane segments are elastically restored to their previous position. This structure can be incorporated into a fluid drop ejector to achieve variable drop size by control of the number of segments actuated. Additionally, by control of the time and space domain of the segment firing, the pressure pulse created by the fluid drop ejector can be precisely controlled.
    • 静电致动器包括与单独可寻址电极相关联的分段柔性膜,每个膜片段一个。 电极设置在相应的一个膜段之下,以在每个电极和相应的膜段之间限定多个致动器室。 控制电子器件独立地提供偏置电压以选择一个或所有电极,以在任何偏置电极和相应的膜片段之间产生静电场,以将相应的膜段吸引到相应的电极。 在消除偏置电压时,相应的膜段被弹性恢复到其先前的位置。 这种结构可以被结合到流体液滴喷射器中,以通过控制致动段的数量来实现可变的液滴尺寸。 另外,通过控制段燃烧的时间和空间域,可以精确地控制由液滴喷射器产生的压力脉冲。